Fabrication perspective of Fe3O4-based cross-cell memristive device for synaptic applications

IF 2.4 4区物理与天体物理 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY

Current Applied Physics Pub Date : 2024-04-27 DOI:10.1016/j.cap.2024.04.008

Vivek Pratap Singh , Chandra Prakash Singh , Harsh Ranjan , Gaurav Kumar , Jyoti Jaiswal , Saurabh Kumar Pandey

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Abstract

Neurotransmitter release in chemical synapses plays a pivotal role in a wide range of essential brain functions, including neural activity (potentiation/depression), learning, cognition, emotion, perception, and consciousness. In this study, we have presented the fabricated cross-cell memristive device that exhibits an analog resistive switching (ARS) device, with Silver (Ag) as active and Platinum (Pt) as inert metal electrodes. The energy bandgap, crystal structure, surface morphology, elemental composition, and electronic properties of the deposited metal-oxide thin film were examined by using UV–Vis spectroscopy, Glancing Angle X-ray diffraction (GAXRD), Field Emission Scanning Electron Microscopy (FESEM), Energy Dispersive X-ray (EDX), and Raman spectroscopy, respectively. The electrical characteristics of the fabricated resistive switching (RS) device have been studied by the Keithley 4200A SCS parameter analyzer by low triangular DC sweep voltage (-2V/+2V) at room temperature (RT). Furthermore, we have evaluated the outstanding performance of the fabricated cross-cell RS device at a read voltage of 0.1V, and we have also discussed its remarkable linearity. This work will aid researchers in realizing the synaptic behavior of cross-cell devices for neuromorphic computing applications.

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用于突触应用的基于 Fe3O4 的跨电池记忆器件的制作视角

化学突触中的神经递质释放在广泛的大脑基本功能中发挥着关键作用，包括神经活动（电位增强/抑制）、学习、认知、情感、感知和意识。在这项研究中，我们展示了以银（Ag）为活性电极、铂（Pt）为惰性金属电极的跨电池记忆器件，它是一种模拟电阻开关（ARS）器件。研究人员利用紫外可见光谱法、闪烁角 X 射线衍射法 (GAXRD)、场发射扫描电子显微镜 (FESEM)、能量色散 X 射线 (EDX) 和拉曼光谱法分别研究了沉积金属氧化物薄膜的能带隙、晶体结构、表面形貌、元素组成和电子特性。我们使用 Keithley 4200A SCS 参数分析仪，在室温（RT）下通过低三角直流扫描电压（-2V/+2V）研究了所制造的电阻开关（RS）器件的电气特性。此外，我们还评估了所制造的跨电池 RS 器件在 0.1V 读取电压下的卓越性能，并讨论了其出色的线性度。这项工作将有助于研究人员在神经形态计算应用中实现跨单元器件的突触行为。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Current Applied Physics 物理-材料科学：综合

CiteScore

4.80

自引率

0.00%

发文量

213

审稿时长

33 days

期刊介绍： Current Applied Physics (Curr. Appl. Phys.) is a monthly published international journal covering all the fields of applied science investigating the physics of the advanced materials for future applications. Other areas covered: Experimental and theoretical aspects of advanced materials and devices dealing with synthesis or structural chemistry, physical and electronic properties, photonics, engineering applications, and uniquely pertinent measurement or analytical techniques. Current Applied Physics, published since 2001, covers physics, chemistry and materials science, including bio-materials, with their engineering aspects. It is a truly interdisciplinary journal opening a forum for scientists of all related fields, a unique point of the journal discriminating it from other worldwide and/or Pacific Rim applied physics journals. Regular research papers, letters and review articles with contents meeting the scope of the journal will be considered for publication after peer review. The Journal is owned by the Korean Physical Society.